采用氢气还原法制备氧缺陷型二氧化钛(TiO2-x),考察氧气氛中不同返烧温度对TiO2-x性能的影响.利用X射线光电子能谱、电子自旋共振谱、紫外-可见漫反射光谱和荧光光谱等技术对样品的表面化学状态、氧缺陷位的种类、光吸收性能和光生载流子的分离效率等性质进行了表征,并以气相的苯为模型污染物,研究催化剂样品在可见光(λ>400 nm)照射下的光催化氧化能力.结果表明,与未返烧的催化剂相比,返烧后TiO2-x对苯的光催化氧化降解能力显著提高,反应4h、催化剂活性稳定后,经300℃返烧的TiO2-x样品对苯的转化率为36.9%,是未返烧样品的5.3倍.还原过程中生成的体相氧缺陷位(束缚单电子的氧空位)是催化剂具有可见光催化性能的主要原因,返烧热处理减少了催化剂表面氧缺陷位(Ti3+)的浓度并有效地抑制了光生载流子的复合.
参考文献
| [1] | Hoffmann M R,Martin S T,Choi W,et al.Environmental applications of semiconductor photocatalysis.Chem.Rev.,1995,95(1):69-96. |
| [2] | Linsebigler A L,Lu G,Yates J T Jr.Photocatalysis on TiO2 surfaces:principles,mechanisms,and selected results.Chem.Rev.,1995,95(3):735-758. |
| [3] | Asahi R,Morikawa T,Ohwaki T,et al.Visible-light photocatalysis in nitrogen-doped titanium dioxide.Science,2001,293(5528):269-271. |
| [4] | Wang Y,Feng C X,Zhang M,et al.Enhanced visible light photocatalytic activity of N-doped TiO2 in relation to single-electrontrapped oxygen vacancy and doped-nitrogen.Appl.Catal.B,2010,100(1/2):84-90. |
| [5] | Li D,Haneda H,Labhsetwar N K.Visible-light-driven photocatalysis on fluorine-doped TiO2 powders by the creation of surface oxygen vacancies.Chem.Phys.Lett.,2005,401(4/5/6):579-584. |
| [6] | Ihara T,Miyoshi M,Iriyama Y,et al.Visible-light-active titanium oxide photocatalyst realized by an oxygen-deficient structure and by nitrogen doping.Appl.Catal.B,2003,42(4):403-409. |
| [7] | Serpone N.Is the band gap of pristine TiO2 narrowed by anionand cation-doping of titanium dioxide in second-generation photocatalysts? J.Phys.Chem.B,2006,110(48):24287-24293. |
| [8] | Zuo F,Wang L,Wu T,et al.Self-doped Ti3+ enhanced photocatalyst for hydrogen production under visible light.J.Am.Chem.Soc.,2010,132(34):11856-11857. |
| [9] | Chen X,Liu L,Yu P Y,et al.Increasing solar absorption for photocatalysis with black hydrogenated titanium dioxide nanocrystals.Science,2011,331(6018):746-750. |
| [10] | Dhumal S Y,Daulton T L,Jiang J K.Synthesis of visiblelight-active nanostructured TiOx (x<2) photocatalysts in a flame aerosol reactor.Appl.Catal.B,2009,86(3/4):145-151. |
| [11] | Serwicka E,ESR study on the interaction of water vapour with polycrystalline TiO2 under illumination.Colloids Surf,1985,13:287-293. |
| [12] | CHEN Yi-Lin,CAO Xiao-Xin,LIN Bi-Zhou.Preparation and property of visible-light-driven InVO4/MWCNTs photocatalyst for benzene decomposition.Journal of Inorganic Materials,2011,26(5):508-512. |
| [13] | Du X Y,Wang Y,Mu Y Y,et al.A new highly selective H2 sensor based on TiO2/ptO-Pt dual-layer films.Chem.Mater.,2002,14(9):3953-3957. |
| [14] | Li Y Z,Hwang D S,Lee N H,et al.Synthesis and characterization of carbon-doped titania as artificial solar light sensitive photocatalyst.Chem.Phys.Lett.,2005,404(1/2/3):25-29. |
| [15] | Howe R F,Gr(a)itzel M.EPR observation of trapped electrons in colloidal titanium dioxide.J.Phys.Chem.,1985,89(21):4495-4499. |
| [16] | Cho J M,Yun W J,Lee J K,et al.Electron spin resonance from annealed titania nanotubes.Appl.Phys.A,2007,88(4):751-755. |
| [17] | Kortiüm G.Reflectance Spectroscopy,Spring-Verlag:New York,1969. |
| [18] | JING Li-Qiang,SUN Zhi-Hua,WANG Bai-Qi,et al.Preparation and characterization of La doped TiO2 nanoparticles by sol-hydrothermal method.Journal of Inorganic Materials,2005,20(4):789-793. |
| [19] | Yu J G,Yu H G,Cheng B,et al.The effect of calcination temperature on the surface microstructure and photocataiytic activity of TiO2 thin films prepared by liquid phase deposition.J.Phys.Chem.B,2003,107(50):13871-13879. |
| [20] | Bonneviot L,Haller G L.EPR characterization of Ti3+ ions at the metal-support Interface in Pt/TiO2 catalysts.J.Catal.,1988,113(1):96-105. |
| [21] | Heller A,Degani Y,Johnson D W Jr,et al.Controlled suppression and enhancement of the photoactivity of titanium dioxide (rutile)pigment.J.Phys.Chem.,1987,91(23):5987-5991. |
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